SEMTECH LM2576S

LM2575 & LM2576
1A & 3A Miniconverter
Switching Regulators
POWER MANAGEMENT
Description
Features
u Pin for pin replacement for National’s LM2575/6
The LM2575/6 series switching regulators are monolithic
integrated circuits designed for use in “buck” or “buck/
boost” regulator applications requiring accurate output
voltages over combined variations of line, load and
temperature. This unique series greatly simplifies
switching power supply design. The LM2575 has a
maximum output current of 1A and the LM2576 is rated
for 3A.
series
u DC-to-DC buck or buck/boost converter requiring
u
u
u
u
The LM2575/6 series miniconverters include a u
switching regulator and compensation network all within u
the same package. Just add a choke, catch diode and u
two capacitors to obtain an efficient DC-to-DC converter. u
The current limit and thermal shutdown features of the
LM2575/6 series fully protect the device against
overstress conditions.
only 4 support components
Fixed or adjustable voltages
Preset output voltages of 3.3V, 5V and 12V
Wide output voltage range, 1.23V to 35V
82% typical efficiency @ 5V out
Wide input voltage range, 4V to 40V
Inhibit/enable control pin
Industrial temperature range
TO-220 and TO-263 packages
Applications
u
u
u
u
The LM2575/6 series offers an alternative to popular 3
terminal linear regulators by providing higher efficiency
with reduced heatsink size. In many applications a heat
sink will not be required.
Micro controller power supplies
Medical equipment
Industrial power supplies
Instrumentation power supplies
Typical Application Circuits
Revision 1, January 2001
1
LM2575
LM2576
L1
330µH
100µH
D1
3A
7A
C IN
68µF
120µF
C OUT
330µF
1,000µF
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LM2575 & LM2576
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Absolute Maximum Ratings
Parameter
Input Voltage
On/Off Pi n Input Voltage
Sy mbol
Maximum
U nits
VIN
45
V
VON/OFF
-0.3 £ VON/OFF £ VIN
V
-1
V
Output Voltage to C ommon (Steady State)
Power D i ssi pati on
PD
Internally Li mi ted
W
Thermal Resi stance Juncti on to Ambi ent
TO-220
TO-263
q JA
55
60
°C /W
Thermal Resi stance Juncti on to C ase
TO-220
TO-263
q JC
2.0
2.0
°C /W
Operati ng Juncti on Temperature Range
TJ
-40 to +125
°C
Storage Temperature Range
TSTG
-65 to +150
°C
Lead Temperature (Solderi ng) 10 Sec.
TLEAD
300
°C
ESD Rati ng (Human Body Model)
V ESD
2
kV
Electrical Characteristics
Unless otherwise specified: VIN = 12V for 3.3V, 5V and ADJ options and 25V for 12V option; VOUT = 5V for ADJ option; TA = 25ºC; VIN rated = 40V;
IO = 0.5 to 3A (LM2576), 0.2 to 1A (LM2575). Values in bold apply over full operating temperature range.
Parameter
Output Voltage
Sy mbol
Test C onditions
Min
Ty p
Max
U nits
VO
IO = 0.5A
3.23
3.30
3.37
V
8V to VIN Rated
3.20
3.40
3.14
3.47
LM2576-3.3
Output Voltage
VO
LM2576-5
Output Voltage
8V to VIN Rated
4.85
5.15
4.75
5.25
IB
12.00
5.10
11.76
15V to VIN Rated
11.52
12.48
11.40
12.60
1.217
8V to VIN Rated
1.193
1.267
1.180
1.280
VIN = 12V, IO = 0.5A
1.230
12.24
IO = 0.5A
LM2576-AD J
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5.00
IO = 0.5A
V FB
LM2576-AD J, VO = 5V
Feedback Bi as C urrent
4.90
VO
LM2576-12
Feedback Voltage
IO = 0.5A
50
1.243
100
V
V
V
nA
500
2
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LM2575 & LM2576
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Electrical Characteristics (Cont.)
Unless otherwise specified: VIN = 12V for 3.3V, 5V and ADJ options and 25V for 12V option; VOUT = 5V for ADJ option; TA = 25ºC; VIN rated = 40V;
IO = 0.5 to 3A (LM2576), 0.2 to 1A (LM2575). Values in bold apply over full operating temperature range.
Parameter
Output Voltage
Sy mbol
Test C onditions
Min
Ty p
Max
U nits
VO
IO = 0.2A
3.23
3.30
3.37
V
8V to VIN Rated
3.20
3.40
3.14
3.47
LM2575-3.3
Output Voltage
VO
LM2575-5
Output Voltage
VO
LM2575-12
Feedback Voltage
V FB
LM2575-AD J, VO = 5V
Feedback Bi as C urrent
IB
IO = 0.2A
4.90
5.00
8V to VIN Rated
4.85
5.15
4.75
5.25
12.00
5.10
IO = 0.2A
11.76
15V to VIN Rated
11.52
12.48
11.40
12.60
IO = 0.2A
1.217
8V to VIN Rated
1.193
1.267
1.180
1.280
VIN = 12V, IO = 0.2A
1.230
12.24
50
LM2575-AD J
1.243
100
V
V
V
nA
500
Effi ci ency/Opti on
3.3V
h
VIN = 12V, IO = 1A (LM2575, 3A for LM2576)
77
5V
82
12V
VIN = 15V, IO = 1A (LM2575, 3A for LM2576)
88
A D J, V O = 5 V
VIN = 12V, IO = 1A (LM2575, 3A for LM2576)
82
Swi tchi ng Frequency
47
fSX
52
43
Saturati on Voltage(1)
VSAT
LM2575, IO = 1A
0.9
1.2
LM2576, IO = 3A
0.9
1.4
DC
93
98
Peak C urrent LM2575(1)
ICL
1.7
2.2
1.3
ICL
4.2
3.5
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3
kHz
62
Max. D uty C ycle (On)(3)
Peak C urrent LM2576(1)
%
V
%
3.0
A
3.2
5.8
6.9
A
7.5
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LM2575 & LM2576
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Electrical Characteristics (Cont.)
Unless otherwise specified: VIN = 12V for 3.3V, 5V and ADJ options and 25V for 12V option; VOUT = 5V for ADJ option; TA = 25ºC; VIN rated = 40V;
IO = 0.5 to 3A (LM2576), 0.2 to 1A (LM2575). Values in bold apply over full operating temperature range.
Parameter
Sy mbol
Test C onditions
IL
VIN = VIN Rated
Min
Ty p
Max
U nits
2
mA
Output Leakage C urrent(2)
Output = 0V
Output = -1V
Qui escent C urrent(2)
IQ
7.5
30
5
10
mA
12
Standby Qui escent C urrent
50
ISTBY
(On/Off Pi n = 5V)
On/Off Pi n Logi c Input Level
µA
500
2.2
VIH
1.4
V
2.4
1.2
VIL
1.0
V
0.8
On/Off Pi n Input C urrent
IIH
VON/OFF = 5V (Off)
12
30
IIL
VON/OFF = 0V (On)
0
10
µA
Notes:
(1) Output sourcing current, resistive load, no inductor or capacitor.
(2) Feedback = VO + 1.0V.
(3) Feedback = 0V.
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LM2575 & LM2576
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Pin Configurations
Ordering Information
LM2575, LM2576
TO-220-5
Function
1
VIN
2
OUTPUT
3
C OMMON
4
FE E D B A C K
5
ON/OFF
P ackag e
C urrent
LM2575T-XX
TO-220-5(2)(3)
1A
LM2575S-XX.TR
TO-263-5(4)
LM2576T-XX
TO-220-5(2)(3)
LM2576S-XX.TR
TO-263-5(4)
3A
Notes:
(1) -XX = Voltage Option. Available voltages are 3.3V
(-3.3), 5V (-5.0), 12V (-12), and ADJ (-ADJ), which is
adjustable between 1.23V and 35V.
(2) Lead bend options for TO-220-5 are: T-XX = Straight
in-line; T-XX-V = Vertical Staggered; T-XX-H = Horizontal
Staggered. Please refer to outline drawings at the end of
this datasheet.
(3) Only available in tube packaging. A tube contains 50
devices.
(4) Only available in tape and reel packaging. A reel
contains 800 devices.
TO-263-5
Pin
D ev ice(1)
TAB i s C OMMON
Block Diagram
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LM2575 & LM2576
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Typical Characteristics - LM2575
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LM2575 & LM2576
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Typical Characteristics - LM2575 (Cont.)
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LM2575 & LM2576
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Typical Characteristics - LM2575 (Cont.)
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LM2575 & LM2576
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Typical Characteristics - LM2576
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LM2575 & LM2576
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Typical Characteristics - LM2576 (Cont.)
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LM2575 & LM2576
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Typical Characteristics - LM2576 (Cont.)
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LM2575 & LM2576
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Applications Information - Buck Mode
L1
330µH
100µH
D1
3A
7A
C IN
68µF
120µF
C OUT
330µF
1,000µF
4. Input Capacitor. The value shown will be adequate for
most applications. Ripple voltage at the switching
frequency is caused by the input capacitor supplying load
current during the on time of the power switch. The use
of a low ESR switching type capacitor will minimize ripple
to an acceptable level.
1. Device Selection. Select an appropriate device from
the “Ordering Information” guide based upon voltage
option and package.
2. Thermal Conditions. Most applications will not require
a heatsink for the TO-220 package. Approximate power
dissipation is:
5. Layout. Use short connections with a central point
ground to prevent improper operation caused by stray
inductance and ground loops.
VO
VO IO VSAT
+ 0 .02 VIN
VIN
VIN
6. Output Capacitor. Ripple voltage on VOUT is directly
related to the value of COUT and the internal resistance
ESR of COUT. Output noise can be lowered by increasing
COUT or by selecting a capacitor with a lower ESR. ESR
must be a minimum of 0.03W for the LM2576 or 0.07W
for the LM2575 to maintain stability, otherwise raise the
value of COUT.
3. Catch Diode. If the output must be capable of a
sustained short, the IF rating must be above 3A for the
LM2575 and 7A for the LM2576. The use of an ultra
fast diode with soft recovery characteristics or a Schottky
will be adequate. The major impact on the selection of a
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LM2576
Schottky versus an ultra fast diode is efficiency. Schottkys
will provide approximately 4% to 5% improvement for
VOUTS below 12V, whereas above 12V the difference will
become less significant. Breakdown rating must be in
excess of VIN for margin.
The above component selections will be adequate for
most applications for output currents from 250mA to 3A
(LM2576) or 150mA to 1A (LM2575). Applications with
V OUT below 5V or above 24V may require component
adjustment for maximum performance; please contact
factory for application assistance.
P=
LM2575
12
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LM2575 & LM2576
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Applications Information (Cont.)
7. Switching Spikes. Switching spikes will also occur due
to distributive capacitance across turns of the inductor
when combined with output capacitor series inductance
(ESL). Reduction to a level at or below the switching ripple
can be achieved by using a post filter as shown below.
Switching Spike Reduction
Typical Buck Shutdown
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Applications Information (Cont.)
Turn-On Delay
Under Voltage Lockout
Turn-On Delay With Spike Filter
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LM2575 & LM2576
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Applications Information - Inverting Buck/Boost
Inverting buck/boost operation is a different topology of
operation than buck. This difference reduces the output
current capability of the device, in that the inductor must
supply all of the load current during the time the power
switch is off. Maximum output current is approximately:
IOUT ≈
IOUT ≈
3 .5

2



V
1 + O

VIN










2



V
1 + O

V
IN





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



LM2576
C IN
47µF
100µF
D1
3A
7A
L1
100µH
68µH
C OUT
2,700µF
6,800µF
IOUT
250mA
500mA
LM2575
LM2576
C IN
47µF
100µF
D1
3A
7A
L1
100µH
68µH
C OUT
470µF
2,700µF
IOUT
100mA
750mA
Component stress requirements are very similar to the
buck with a few exceptions:
(1) catch diode breakdown VBR must be greater than
VIN + |VOUT|
(2) input capacitor is larger due to the increased peak
current during switch turn on. Power dissipation is
approximately:
(LM 2576 )

VO
PD ≈ 
 V O + V IN

1 .3
LM2575

 IO



VO
1 +

V
IN


VO
 V SAT + 0 . 02 V IN

V
IN

(LM 2575 )
Please contact factory for additional assistance when
using the buck/boost topology.
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LM2575 & LM2576
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Applications Information (Cont.)
Inverting Buck/Boost Shutdown
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Support Components Information
Pre-Wound Inductors:
Hurricane Electronics Lab
P.O. Box 1280
Hurricane Industrial Park
Hurricane, UT 84737
(801) 635-2003
LXF Series
United Chemi-con
9801 West Higgins Road
Rosemont, IL 60018
(708) 696-2000
Heat Sinks:
AAVID Engineering Co.
P.O.Box 400
One Kool Path
Laconia, NH 03247
(603) 528-3400
Core Source:
Micro Metals, Inc.
1190 N. Hawk Circle
Anaheim, CA 92807
(714) 630-7420
Capacitors:
VPR Series
Mallory Capacitor Co.
4760 Kentucky Avenue
Indianapolis, IN 46241
(317) 856-3731
Thermalloy, Inc.
2021 W. Valley View Lane
Dallas, TX 76381
(214) 243-4321
511D & 673 Series
Sprague Electric Co.
North Adams, MA
(413) 664-4411
Diodes - Catch:
Ultra Fast/Soft Recovery
Semtech Corporation
652 Mitchell Road
Newbury Park, CA 91320
(805) 498-2111
HFQ, HFZ Series
Panasonic Industrial Co.
2 Panasonic Way
Secaucus, NJ 07094
(201) 392-6142
Diodes - Schottky:
Fuji/Collmer Semiconductor
14368 Proton Road
Dallas, TX 76244
(800) 527-0521
PF, PL Series
Nichicon Corp.
927 E. State Pkwy.
Schaumburg, IL 60195
(708) 843-7600
Micro Quality
1000 N. Shiloh
Garland, TX 76046
(214) 272-7811
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LM2575 & LM2576
POWER MANAGEMENT
Outline Drawing - TO-220-5 (T-XX Option)
Outline Drawing - TO-220-5 (T-XX-H Option)
Outline Drawing - TO-220-5 (T-XX-V Option)
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LM2575 & LM2576
POWER MANAGEMENT
Outline Drawing - TO-263-5
Minimum Land Pattern - TO-263-5
Contact Information
Semtech Corporation
Power Management Products Division
652 Mitchell Rd., Newbury Park, CA 91320
Phone: (805)498-2111 FAX (805)498-3804
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